Abstract: A hand-held Variable Angle Membrane (VAM) ultrasonic scanning head consisting of transmitting and receiving transducers is used to excite guided waves to detect corrosion, MIC and foreign objects in containers such as pipes. The scanning head includes transducers mounted on a fluid filled housing sealed by a membrane. This system couples ultrasound from the transducer to the pipe wall. The transducer housings are mounted in a rigid frame that holds the ultrasonic transducer housings a specific distance apart and allows each transducer housing to rotate about a pivot point. The membrane deforms to the pipe diameter to be scanned. The scanning head is adjusted to perform inspections in various container diameters and thicknesses. Once adjusted for diameter and thickness, the operator places the scanning head on the pipe and couples the rubber membranes to the pipe with a small amount of couplant.

Abstract: A three-axis micro-gyro structure having first and second micro-gyro devices that measure angular velocity around first and second rate axes extending in a plane of the micro-gyro structure and a third micro-gyro that measures angular velocity around a third rate axis perpendicular to the plane of the micro-gyro structure.

Abstract: A method that simultaneously monitors and captures vibration acceleration signals at locations comprising at least one site sourcing environmental excitations and a target site, which target site is selected from a planned machinery foundation site or one or more sites interfacing between elements of machinery to be placed on such foundation; extracting amplitude and frequency data from the frequency representations of the domains of such signals; quantifying displacement excitations from such data at such locations; and providing transmissivity ratios along the vibration path by summing the displacement excitations at different frequencies at each of the locations and then ratioing the sum at either the planned machinery foundation site or at a selected joint site with the sum at the environmental excitation site, thereby indicating the relative vibration stiffness between such sites.

Abstract: A micromechanical spring structure, in particular for a rotation rate sensor, includes a first and a second cooperating elastic bar, segments of which run largely parallel to each other and segments of which are coupled with one another. The first and second elastic bars have a common curved area in which they are coupled with one another by a connecting area. A first transitional area to the connecting area, located between the first and second elastic bars, forms a largely smooth curve.

Abstract: An apparatus and process for using ultrasound to measure speed and acceleration in fluids is provided. Three preferred embodiments are disclosed. The first preferred embodiment measures fluid velocity, such as, for example, wind, under standard atmospheric pressure-temperature. The second preferred embodiment measures gas velocity, such as, for example, wind, affected by and automatically calibrates for pressure-temperature. The third preferred embodiment measures gas density, such as, for example, density altitude. Applications of the invention include wind direction and speed calculation in agriculture, aviation, hydraulics, and other industries. One of the advantages provided by the invention is there are no moving parts in making such measurements.

Abstract: Flexure assemblies include steel plates or pieces of metal material that are rigid in at least one direction but flexible in at least one other direction. One arrangement of components provides a flexure assembly that is intended to permit linear motion along an axis while preventing off-axis motion. Another arrangement of components permits rotary or pivotal motion about an axis within a limited range while preventing off-axis motion. All arrangements provide a frictionless and noiseless support arrangement that is well suited for test equipment where noise sensitivity and accuracy are of concern. The invention provides a testing device that permits test forces to be input directly to a vehicle body structure for testing vehicle squeak and rattle noises within a vehicle interior.

Abstract: A sensing device, such as an angular speed detecting device, includes a vibrator for improving detection precision. The vibrator is displaceably supported on a substrate and is vibrated in the direction of an X-axis by driving electrodes. Detecting electrodes detect vibrations of the vibrator in the direction of a Y-axis caused by a Coriolis' force resulting from the angular speed occurring about a Z-axis. Each of the driving and detecting electrodes includes a movable electrode that is connected to the vibrator and that is displaced together therewith on the substrate and a fixed electrode fixed onto the substrate in such a manner as to face the movable electrode. By equalizing conductors connected to fixed electrodes of the driving electrodes and conductors connected to fixed electrodes of the detecting electrodes in length, width, and thickness, respectively, one electrical characteristic is set for those of the wiring portions which function in the same manner.

Abstract: A method and apparatus for monitoring one or more parameters of a variable physical structure, such as liquid level, is disclosed. The method and apparatus includes an electrodynamic element placed in proximity to a monitored structure and exciting within said element an alternating electromagnetic field. The electromagnetic field should be at a frequency at which the electromagnetic field penetrates into the monitored structure and then variations of the electromagnetic field parameters are measured for the element caused by a variation in the structure. The exciting of the electrodynamic element is by an electromagnetic field in the form of at least one slowed electromagnetic wave having suitable energy distribution of the electric and magnetic fields for the measuring of the electromagnetic field parameters.

Abstract: A bearing assembly tachometer device for attachment to a rotating shaft which comprises bearing target members disposed between a rotating inner ring member and a non-rotating outer ring to reduce friction therebetween, and a sensing device such as a Hall Effect sensor for detecting passage of the bearing target members as the inner ring member rotates, where the bearing target members are fixed in equidistant circumferential position about the inner ring member such that each said bearing target member rotates about the central axis of the inner ring member the same number of rotations as the inner ring member itself.

Abstract: A digital phase locked loop includes an automatic gain control that applies a gain to an input signal in order to provide a gain controlled signal. A 90° phase shifter applies a 90° phase shift to the gain controlled signal in order to provide a 90° phase shifted version of the gain controlled signal. A phase detector is driven by the gain controlled signal, by the 90° phase shifted version of the gain controlled signal, and by sinusoidal and co-sinusoidal signals. A loop filter integrates an output of the phase detector and provide servo equalization for the phase-locked loop. A digital dual frequency oscillator has a fundamental frequency controlled by an output signal from the loop filter. Also, the digital dual frequency oscillator generates the sinusoidal and co-sinusoidal signals.

Abstract: The present invention is a semiconductor sensor package for incorporating a semiconductor sensor chip. The main surface for mounting the semiconductor sensor chip is formed at a predetermined angle with respect to the surface of a printed circuit board for mounting the package. The main surface is provided with a plurality of terminals along two opposite sides for connecting with the input/output terminals of the semiconductor sensor chip and a bottom surface perpendicular to the main surface with a plurality of pins respectively formed along two sides parallel to the main surface. The plurality of pins are inserted into mounting holes formed in the printed circuit board, and the plurality of terminals provided along parallel sides the pins are electrically connected.

Abstract: A support for supporting two or more units used in a system for measuring a speed and or acceleration of a vehicle, with the support able to rest on a surface, has an elongated bar on which the units are mounted. A first leg and a second leg are both mounted to the bar. A third leg is mounted to a rear portion of the bar. The legs are height-adjustable.

Abstract: The invention relates to a micromechanical structures that include movable elements. In particular the invention relates to an arrangement for coupling such movable elements to other structures of a microelectromechanical system (MEMS). The invention is characterized in that the arrangement comprises at least one coupling means (930-936) for coupling the movable element to the fixed structure, and at least one flexible means (980, 990-996) for allowing different thermal expansion between the movable element and the other structure in the direction which is substantially perpendicular to the characteristic movement of the movable element, wherein said coupling means and/or flexible means is reinforced in the direction of the characteristic movement of the movable element.

Abstract: A sensor device has a sensing layer and an auxiliary layer for supporting the sensing layer, the two layers being superposed on each other in a laminar form. The sensing layer has a vibratory body displaceable in a direction parallel to a junction surface between the two layers. The auxiliary layer is affixed to the sensing layer and a recess or through-hole of a larger area than that of the vibratory body is formed in the auxiliary layer at a part thereof confronting the vibratory body.

Abstract: A simplified and smaller accelerometer-gyro is provided by combining gyro and accelerometer functions in a single sensor unit which has a pair of counter oscillating accelerometers each having a pendulum or sense element and a vibrating element. The pendulum and vibrating element of each accelerometer are designed to be symmetrical so that the center of mass for each accelerometer are on a line which is parallel to the dither motion of the unit. The geometry of these two pendulums is configured so that the centers of percussion of each is at the same point. Electrodes on the top and bottom cover of the sensor unit combine the pickoff and forcing function with the pendulum tuning function, thereby simplifying electrical connection. A pair of mounting tabs are fastened to the frame by respective compliant beams. The accelerometer-gyro may be mounted in an enclosure that maintains a pressure below atmospheric around the accelerometer-gyro.

Abstract: A monolithic low cost, high frequency surface acoustic wave (SAW) accelerometer is provided that is operable in high impact and vibration applications.

Abstract: A resonator beam structure that, during vibration of the tines, minimizes coupling of a longitudinal motion of the tines into a support structure to which the resonator beam is attached. The resonator beam includes a pair of tines; a first base region mechanically coupling a first ends of the tines together; a second base region mechanically coupling the second ends of the tines together; a first cutout of a first predetermined geometry at a first predetermined position in a closed interior portion of the first base region; and a second cutout of a second predetermined geometry at a second predetermined position in a closed interior portion of the second base region. The invention includes a method for using finite element analysis to determine an optimum geometry and position of the cutouts.

Abstract: A structure and arrangement for improving the accuracy and efficiency of an angular rate sensing gyroscope is herein disclosed. Voltage pick-off conductors are applied to an area of the surface of a resonating element of an angular rate sensing gyroscope that is subject to substantially zero stress when the gyroscope is rotationally stationary. Actuator conductors are similarly applied to a resonating element at a location bounded by areas of the resonating element subject to substantially uniform levels of stress when the gyroscope is rotationally stationary. A method for improving the voltage response of a piezoelectric resonating element is also disclosed.

Abstract: Method for balancing a rotary object, such as a disc drive disc pack. A balance correction member is provided as a C-shaped ring formed from a length of wire of nominally uniform cross-sectional area. The member has a substantially elliptical shape in an uncompressed state. During installation, the amount of imbalance in the disc pack is measured and a member with an appropriate length is selected and compressed to a substantially circular shape. The compressed member is then placed adjacent the disc pack so that the member expands to compressingly engage an annular recess in the disc pack. The member is preferably installed using an automated dynamic balance correction station as part of a high volume disc drive manufacturing environment.

Abstract: There is disclosed a sliding rotation member which is rotatably supported by a support shaft in a toroidal continuously variable transmission, and slides on another member, wherein a maximum shear stress depth generated at a maximum deceleration time of the toroidal continuously variable transmission is defined as Z0, a size of a defect obtained in accordance with a shape of the defect detected by a nondestructive inspection method is defined as a square root length, and then a defect of 0.05 mm or more in terms of the square root length is not included in a range of a depth from the surface which is twice the depth Z0.